SU987657A1 - Radio signal simulator - Google Patents

Description

one

The invention relates to atomics and computing, in particular, to devices designed to train operators, navigators working with equipment that ensures the safe driving of vehicles, such as airplanes, ships, etc., which use radio navigation aids. , allowing to determine the location of the object on the received signals of the stations of radio navigation signals. topics

A radio signal simulator is known, comprising a master oscillator, a source frequency signal generating unit 5, predetermined frequency signal conditioners on frequency divider counters, and digital phase shifters. In this case, frequency dividers provide 20 generation of signals of specified frequencies. By changing the division factors of the frequency dividers in the group, the set variable frequencies are set.

The generated signals and the desired integer ratios between 4acTOTawi of the generated signals f1 can be established.

The disadvantage of this device is its low accuracy.

The closest to the present invention is a device in which the signal of the master oscillator enters the initial frequency signal generation unit, from the outputs of which the signals of the initial frequencies are fed to the drivers of simulated signals of the specified frequencies consisting of a discrete phase shifter and a frequency divider made on the basis of a control counter calculated by the conversion factor t. The output signals of the drivers are sent to the output block, which includes elements and nodes that provide the setting of such signal parameters as duration, amplitude of the sequence of the time diagram sendings, etc., i.e. it includes switches.

39876574

klyumi;, providing a given length of the signal of the master oscillator I, the sweepiness of the parcels of different frequencies and steps onto block 2, in which the fortior sequence, attenuators, the signals of the initial frequencies are harmonized, which ensure the amplitude control of which during the subsequent division of signals 5 frequencies can be obtained frequency

baking. generation of sinusoidal signals from pulse signals of frequency dividers.

A disadvantage of the known device is also insufficient accuracy.

The purpose of the invention is to improve the accuracy of the simulator.

The goal is achieved by the fact that the simulator containing the initial frequency signal shaping unit, the input of which is connected to the master oscillator, and the output is connected to phase shifters, the first group of frequency dividers connected to the outputs of the corresponding phase shifters and one input of the interface unit, another input which is connected to the control unit connected to one phase shifter, the second group of frequency dividers connected to the outputs of the corresponding frequency dividers of the first group, the first discriminator, the inputs to Secondly, they are connected to the first and second frequency dividers of the second group, and the output is connected to another phase shifter, and the second discriminator, whose inputs are connected to the first and third frequency dividers of the second group, and the output is connected to the input of the third phase shifter, radio frequency filters are entered, inputs which are connected to the outputs of the corresponding frequency dividers of the first group, and the outputs are connected to the interface block, and the limiting amplifiers connected to the outputs of the corresponding radio frequency filters and to the inputs of the corresponding cases second group frequency switches. The drawing is a block diagram of a simulator. 1 The simulator includes a master oscillator 1, a signal generation unit 2. source frequency, control unit 3, first 4 and second 5 discriminators, phase shifters 6, first group ;; frequency dividers 7, interface unit 8, radio frequency filters 9, second divider group 10-12 frequencies, limiting amplifiers 1-3 The simulator is working in the following way .

simulated group of signals. Formed in block 2, the signals go through digital phase shifters 6 to frequency dividers 7. C. With the help of phase 0 rotators 6 and dividers 7, the phase AND frequency of the simulated signals is specified. These signals are fed to block 8 through filters 9. Pulsed periodic signals of given frequencies are converted into sinusoidal signals of the same frequencies into filter 15 pax 9 and then go to block 8, in which such parameters of output signals are set as duration, amplitude, sequence timing diagram. This is accomplished using the keys and attenuators included in block 8. At the same time, the sinusoidal signals from the filters 9 also go to frequency dividers 10–12 through 13o limiting amplifiers. s 10-12 audio frequency signals are generated. The signals from the dividers 10 and 11, (10 and 12) are fed to the time pulse discriminator t (5 L in which, if they do not match in time (phase, the pulse signals from the error are formed, corresponding to the time difference of the signals in time (phase) O) k (5) pulses are applied to the control inputs of the corresponding phase shifter 6 of the simulated signal of the second (third) frequency, which is included in the group of simulated signals. As a result, the phase of the generated signal changes in the direction corresponding to the sign of matching up to coincidence of the signals arriving at discriminator 4 (5). Therefore, for any changes in the phase (according to the signal from block 3) of the first simulated signal, the phase of the second (third signal changes so that the time positions of the dividers 10-12 signals coincide, including in the process of movement, Toe. the time offset of the first signal is equal to the offset of the second and third signals. Accordingly, the phases of the input signals of the dividers 10-12, i.e. phases of simulated signals coming from

filters, 9 are tightly bound.

Thus, a consistent change in the phases of the sinusoidal simulated signals of a group of different frequencies at the output of radio frequency filters is provided. Moreover, this coordination is preserved when the phases of the signals change, caused by changes in the filter parameters when the ambient temperature changes (i.e., when the phase shift of the filters changes, when the filters are detuned relative to the initial tuning frequencies, etc.).

Claims (1)

The signals from filters 9 arrive both at dividers 10–12 and at block 8, which includes commuting cells and attenuators. With their help, the signals of the filters 9 form a sequence of premises of a given duration, amplitude and frequency of a specific sequence. The introduction of new units and blocks makes it possible to significantly improve the accuracy of the simulator. Claims of the invention A radio signal simulator comprising a source frequency signal generating unit whose input is connected to a master oscillator and the output connected to phase shifters, the first a group of de / mteles of frequency connected to the outputs of the respective phase shifters and with one inputs of the interface unit, another input of which is connected to the control unit connected to one phase shifter, the second group of frequency dividers connected to the outputs of the corresponding frequency dividers of the first group, the first discriminator, inputs which are connected to the first and second frequency dividers of the second group, and the output is connected to another phase shifter, and the second discriminator, the inputs of which are connected to the first and to the third generator The second group of signals, and the output are connected to the input of the third phase shifter, characterized in that, in order to increase the simulator accuracy, it contains radio frequency filters whose inputs are connected to the outputs of the corresponding frequency dividers of the first group, and the outputs are connected to the interface block, and limited amplifiers connected to the outputs of the corresponding radio frequency filters and to the inputs of the corresponding frequency dividers of the second group. Sources of information taken into account in the examination of K US Patent K 3835086, cl. W 0-352, pub. 197. 2, USSR Author's Certificate No. 731 “5, cl. G09 9/00, 1U76 (prototype).